Micrometer end-clearance machine



June 1925- 1540,3-78

R. B. wAssoN HICROMETER END CLEARANCE MACHINE Filed Aug. 24, 1921 6 Sheets-Sheet 1 June' 1925- 1,540,378

B. wAssoN IICROIETER END'GLEARANCE MACHINE Filed Aug. 24, 1921 6 Sheets-Sheet 3'1 ATTORNEY I R. B. WASSON MICROMETER END CLEARANCE MACHINE Filed Aug. 24, 192i 6 Sheets-Sheet 4:

INVENTOR June 2', 1925.

1,540,378 R. B. WASSON HICHOHETER BNDCLEARANCE MACHINE Filed Aug. 24, 1921 s Sheets-Sheet 5 INVENTOR June 2, 1925.

1,540,378 R. B. wAssoN uIcEouETEE END CLEARANCE MACHINE Filed Aug. 24, 1921 6 Sheets-Sheet s v f 8 1 4 6 L E Z1T J I I/ U 37 W42 0 $1 30 hgl :3 2i

Patented June 2, 1925.

ROBERT B. 'WASSON, OF CRANFORD, NEW JERSEY.

MIICROMETER END-CLEARANCE MAQHINE.

Appllcation'filed August 24, 1921 Serial No. 495,076.

To all whom it may concern:

Be it known that I, ROBERT BINGHAM VVAssoN, a citizen of the United States, residing at 306 Elizabeth Ave., Cranford, New

Jersey, have invented certain new and useful Improvements in Micrometer End-Clearance Machines, of which the following is a specification. I

My invention relates to a machine for measuring the end clearance of piston rings, that is to say, the distance between the faces of the free ends of the ring, when the ring is in operating position, and is more particularly intended to provide such a machine 1 which may be readily set for larger or smaller rings, thus avoiding the necessity of providing a standard sized plug for each size of ring. Another object of my invention is to provide such a machine in which the ring is permitted to float, its ends being so carried as to be freely movable, so that the flexible dimensioning band which is iised in the machine to confine the ring may when under tension assume a position in the line of pull on the hand without twisting or binding the band.

Another object of the invention is to provide means for always-maintaining the same tangent line or plane of contact between the band and the ring, for different-sized rings.

Another object of the invention is to so construct the machine as to permit the utilizationof a simple form of band instead of a forked band. v

Another object of the invention is to provide a simple form of mechanism for spacing the j aw of the clamp inwhich the ring is located when testing, thus readily providing for the resetting of the jawsfor rings of different width.

Other objects of the invention are to simplify. and improve parts of the mechanism of the machine so as to make it more accurate in its operation.

With the above and other objects in view,

my invention consists in the parts, improvements and combinations more fully pointed out hereinafter.

Turning now to the drawings:

Figure 1 illustrates a plan view of amachine embodying one form of my invention,

Fig. 2 is a side elevation of the machine.

Fig. 3 illustrates a detail of the dashpot. Fig. 4 is an end elevation of the machine. Fig. 5 is a transverse section thru the mi- Fig. 6 is a. vertical cross section on line 6 6 of Fig. l. V Fig. 7 is a vertical cross section on the line 7--7 of Fig. l.

Fig. 8 is a detail of the spacing block.

Fig. 9 is a detail of the clamp for the end of the band; and Figs. 10, 11 and 12 illustrate somewhat diagrammatically the operation'ot testing" and measuring the end clearance.

In the drawings, the horizontal platform 1 of-the machine which is carried by the frame supportedby feet, is adapted to rm 7c ceive the ring 2 whose end clearance is to be measured. I provide a flexible dimensioning band 3 which is adapted to confine the ring in a loop as illustrated. Means are provided for anchoring one end of the hand, the other to end being passed around the ringso that the path of the free end of the band lies to one side of the anchorage for the anchored end of the band. One advantage of this construction is that it permits the use of a band of uniform cross section, and makes it unnecessary to pass one end of the hand, thru the band to form a loop. The anchored end 4: of the band is preferably permitted to be somewhat movable {see Fig. 1). illustrated, this end encircles a pin which turn moves in a slot 5 in the anchor 6. this means, when the free end of the be which is secured to slide 30 is loosened moving the carriage 30 to which the 1. end is secured, tothe left, this relieving t tension on the band, the anchored end will take a position in the right of the slot it, thus quickly enlarging the loop and perinh. ting the rapid removal of the ring. The anchor 6 is rigidly secured to the platform as by means of bolts 7 and part 8, the bolts passing thru a projection '5 extending from the platform.

7 Means are provided for maintaining the same tangent line or plane of contact between the band and the ring, for diilerentsized rings. These means may be varied. In the form illustrated the inner side of the part 8 forms a guide for directing the 1 band, on its way to the clamp 30, and also lGO ' forms a front stop for the'ring. Thesuccessive rings even tho of diderent diameters, may be readily placed with their split ends against this front stop, as illustrated, thus and the frame of the mounting con maintaining the same tangent plane of for tact between the band and the rings, different sized rings.

Means are provided for confining the ends of the ring and preventing one end riding up on the other more than a definite amount, at the same time permitting the ends to move toward each other freely. I provide a supplementary platform 13 and jaw 14 for this purpose and simple and eflicient means for limiting the approach of the jaw with respect to the latform. I make use of a gage block 9 (Figs. 5, 6 and 8) to limit the opening between the jaw and the platform. The gage block is of known thickness and is removable. It may have two wings 10 and 11 and be slotted as at 12, to permit its insertion. The thickness of this gage block is slightly greater than the width of the ring to be tested.

Means are provided for supporting thesplit ends of the ring, permittingthem to float and permitting the dimensioning band to take up its direct line of pull without twisting or binding the band. The platform 13 and thejaw 14 are permitted to move slightly in any direction (see Fig. 6). The platform may be provided with an extension such as a stud 15 surrounded by spring 16 whose tension may be regulated by the nut 17. Thespring is confined betweenthe nut machine. One or more springs 18 support the platform 13. They may be placed in the sockets 19. of the frame. In this way the platform 13 and jaw 14 are yieldingly mounted so as to be movable slightly in any direction under the pull of the tensioning band whenit encircles the ring to be tested. By adjusting the nut 17 the platform 13 may beraised or lowered slightly so as to keep its upper surface substantially on a level with the fixed horizontal platformsupporting the body of the ring. This fixed horizontal platform is preferably cut out at 20 to provide for the'movable supplementary platform 13 within the cut-out portion.

Means are provided for clamping the movable jaw 14 against the spacing block 9 so as to maintain a definite size of throat for the free insertion of the ring end. In the form of the invention illustrated the extension or stud 15 is provided with a screw-' threaded socket which receives a screwthreaded bolt 21 pivoted at 22 to a locking cam or actuating member 23 with cam or curved surface 24. The member 23 may be ivoted to one side of its center. This memer is rovided with handle 25. The jaw 14 is pre erably loosely mounted and rests by its weight upon the gage block 9.

When the handle 25 is turned pressure is applied to the upper face of the jaw 14, clamping and locking the jaw and platform in a predetermined definite relation as preinder. The piston is viously explained. In order to prevent the jaw from twisting a in 26 is inserted into apertures 27, 28 in t e (jaw and platform respectively, the pin an bolt 21 preventing the twist. Means are provided for preventing the jaw and latform from binding against the part 8. lhe jaw and latform are recessed to receive and clear t e uide 8 and the pin 26 is provided with a flange 29 engaging the face of the part 8, thus avoiding a bindin action.

The distal or adjustable end of the band 3 is clamped to a slide or clamp 30. A round plug 31 is mounted in the slide and carries a screw end 32 (see Figs. 5 and 7). A sleeve 33 forms part of the clamp. The sleeve is shouldered at 34 and is kept down by a cover plate 35 which engages the shouider and which is rigidl mounted updn the slide 30. By turning t e nut 36, which is separate from the sleeve and which has a squared end, the band is clamped between the sleeve and the plug. The plug and sleeve can rotate or swivel slightly in their socket.

Means are provided for micrometrically adjusting the slide 30 with reference to the main movable carriage 30 on'which it is mounted,thus accurately adjusting the end of the band and the size of the loop for different-sized standard plugs. I provide a micrometer for this purpose. A screw threaded member or hollow sleeve 37 is connected to the slide, being preferably integral therewith (see Figs. 1, 5 and 10). A micrometer screw 38 having a flange 39 engages the hollow sleeve, the screw being rotatable by suitable means such as a handle 40 secured to the screw threaded end 41, of the micrometer screw (see Fig. 5). A- gaging thimble 42 Carry ing gage marks on its barrel, is secured to; the micrometer screw, 1 being clamped between the flange 39 and the hanclle 40. The thimble may be locked in indicating position by a block 42 with a curved face 42 fitting the thimble (see Fig. 4). A screw 42 forces the block against The form of the carriage may be widely. varied. As illustrated, the main carriage 30 itself forms, one member of the dashpot. As illustrated the carriage is recessed so as to formthe cylinder of the dashpot, the iston of the dashpot being rigidly secure to the fixed frame of the machine. The carriage is recessed so as to provide a hollow cylinder or piston chamber 43 for the purpose closed at one endb cover plate 44 bolted to the piston chamber by bolts 45 (see Fig. 5). A stufling box provided with a packing 46 and screw adjustment 47 prevents the piston the thimble.

49 of the dashpot and the cylrigidly held in place Inn leakage between the stem 48 of the piston so as to provide a passageway of small cross section communicating with both sides of the piston.

The main carriage to which the band clamping slide. is acqustably connected, is provided with Ways for receiving the slide. The carriage itself slides back and forth in ways 56 in the frame of the machine, being held down by guide blocks 57 which are secured to the frame by screws 58 (see Figs. 4 and 7.).

Means are provided for reciprocating the carriage. A weight is used for moving the 1 carriage in the direction to tension the band.

A weight 59 is connected to the carriage by'link 60 and bell crank lever 61 pivoted at 62 in the frame of the machine, one

arm of the bell crank being connected to the carriage by pivot bolt 63 (see Figs. 2, 4 and 5). A pivoted latch 59 holds the carriage out of indicating position against the pull of the weight.

Another arm of the bell crank may have a pedal connected thereto by means of a link 64. The pedal 65 is pivoted to block 66, which may form part of the machine frame.

Means are provided for indicating the movement of the carriage, thus determining the amount of movement of the distal end of the band from which the .end clearance may be ascertained." A which is adjustably mounted in bracket 68 secured to or integral with the carriage (see Fig. 1). The post may be locked in adjustable position by wing bolt 69. A multiplying indicator 70 is mounted on the ma chine with its operating staff 71 in line with the path of travel of'the bolt. The indicater-may be carried by the bracket 72 to which it may be pivotally clamped at 7 3510 as topermit the inclination of theindicator face at an angle, allowing easy observation' of the face. I a p p p Means are providedfor vibrating the ring "when in contact with the encircling band so' as'to reduce the friction between the hand and the ring; thus permitting accurate reading to be obtained. As illustrated, the platform carrying the ring is vibrated (see Fig. 6). A plug 74 with its head 75 is caused to strike the bottom of a socket 7 6 in which the plug is mounted. The socket forms part of the frame. A spring 77 and the band removed.

post '67 is provided actuates the plug, its tension being adjusted by the screw nut 78. A lifting cam '79 lifts the plug, the cam being rotated by its carrying shaft 80 which is turned by the armature 81 of an electric motor. The frame 82 of the motor is secured to the frame of the machine by means of an extension 83 held in place by a oolt 84.

Having thus described my invention, its operation is as follows (referring for example to Figs. 10, 11 and 12) A standard plug is placed in the loop of the band with the micrometer set at'zero both on the barrel and thimble (see Fig. 10). The slack is taken up in the band by loosening the clamping nut 36 for the distal end of the band. The band is pulled tight around the plug and the clamping screw is then ti 'htened. The pivoted latch or can riage stop 59*, Figs. 1 and 2 is thrown out of the Way of the carriage and the weight now applles its force to gently pull the carriage toward the indicator. The dash pot checks the inertia of the weight. The band is thus pulled firmly around the plug 67, Fig. l. The contact post which actuates the staff of the dial indicator is so mt that the dial registers. The vibrator is then operated until the parts are thoroly settled and the friction between the plug The dial indicator is now set at zero by turning the dial. This sets the machine for a standard ring of plug may now The carriage. may be held retracted by the pivoted stop. The new ring can then be inserted in the loop and the carriage allowed to move so as to tension the band under till tlii

the influence of the Weight (see'Fig. 12-).

The contact post on the'carriage actuates the dial indicator giving a reading, which, may either be plus or minus and of the correct or incorrect amount. If the reading is minus, i. e., to the ri ht of the zero, for example, it indicates the amount of end clearance which the ring possesses. if this readin be too great, the ring is reprocessed.

If the reading is plus, i. e., to the left -ofthe zero of the dial indicator, tor en ample, it indicates that the end clearance is too great and the ring is subjected there upon to a reprocessing operation.

The micrometer 18 used to adyust the ma chine for variations in size of ring from the standard plug. This avoids the recess sity of building and accurately manufacturing a large number of, standard plugs. The graduations on the thimble of the micrometer may be suitably chosen. F or ex ample they may represent thousandths in the diameter of the ring. turn of the thimble may represent twenty thousandths of an inch (.020 inch) in the diameter of the ring. Three complete'turns on the thimble plus two and one-half divisions of the thimble may equal one-sixteenth inch in the diameter of the ring.

From the readings on'the dial indicator, the end clearance may be calculated. If the ring is cut with the faces of the ends at the joint or split portions at right angles to the body of the ring, the reading on the indicator will give the end clearance directly. If the ring is cut with its ends at an angle, as for example at 30 degrees,the reading on the indicator if the angle is thirty degrees willbe twice the end clearance.

From the foregoing it will be observed that the machine is adapted to measure the end clearance of rings of different sizes in an accurate manner. It will also be ob served that changes may be made, without departing from the principle of the inven tion.

\Vhat I claim and desire to secure by Letters Patent is:

1. A machine for measuring the end clearance of piston ring-s comprising in combination a dimensioning, flexible band adapted to confine the ring in a loop, an anchorage for one end of the band, a clamp for the distal end of the band, a member carrying said clamp, means for adjusting said member, means for bodily moving said adjusting means and an indicator for showing the amount of the bodily movement of the adjusting means, thereby determining the end clearance.

2. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning, flexible band adapted to confine the ring in a'loop, an anchorage for one end of the band, a clamp for the distal end of the band, a slide carrying said clamp, means for micrometrically adjusting said slide, means for-bodily moving said adjusting means and an indicator for showing theamount of the bodily movement of the adjusting means, thereby determining the end clearance.

3. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning, flexible band adapted to confine the ring in a loop, an anchorage for one end of the band, a clamp for the distal end of the band, a slide carrying said clamp, means for micrometrically adjusting said slide, a carriage on which said slide is mounted, a member carried by said carriage, and an indicator actuated by said member, thereby determining the end clearance.

a. A machine for measuring the end clearance of piston rings comprising in combination a Gne complete bination a dimensioning, flexible band adapted to confine the ring in a loop, an anchorage for one end of the band, a clamp for the. distal end of the band, a slide carrying said clamp, means f0 micrometrically adjusting said slide, a carriage on which said slide is mounted, an adjustable post carried by said carriage and an indicator actuated by said post, thereby determining the end clearance.

5. A machine for measuring the end clearance of piston rings comprising in comdimensioning, flexible band adapted to confine the ring in a loop, an anchorage for one end of the band, a clamp for the distal end of the band, a slide carrying said clamp, means for micrometrically adjusting said slide, said adjusting means comprising a screw-threaded member connected to said slide, a rotatable screw engaging said screw-thieaded member, a carriage on which said slide is mounted, a member carried by said carriage, and an indicator actuated by said member, thereby determining the end clearance.

6. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning, flexible band adapted to confine the ring in a loop, an anchorage for one end of the band, a clamp for the distal end of the band, a slide carrying said clamp, means for micrometrically adjusting said slide, saidadjusting means comprising a screw-threaded sleeve integral.

with said slide, a micrometric screw engaging said sleeve, a stem secured to said screw for rotating it, a carriage on which said slide is mounted, an adjustable post carried by said carriage,-and,an indicator actuated clearance.

7. A machine for measuring the end clearance of pistomrings comprising in combination a dimensioning, flexible band adapted toconfine the ring in a loop, an anchorage for one end of the band, a clamp for the distal end of the band,- a slide carrying said clamp, means for adjusting said slide, a carriage provided with a dashpot" engagement, a fixed piston cooperating with said dashpot and means for moving said carriage. j

9. A- machine for measuring the end by said post, thereby determining the end machine .for'rneasuring the end i clearance of piston rings comprising in com bination a dimensioning, flexible band adapted to confine the ring in a loop, an

of the band, said anchorage for one end of the band, a clamp for the distal end of the-band, a slide carrying said clamp, means for adjusting said slide, a carriage having a dashpot with which carriage said slide is in sliding engagement, and a. weight for moving said carriage so as to apply tension to the band.

10. A machine for measuring the end clearance of piston rings comprisin in combination a dimensioning, fiexib e band adapted to confine the ring in a loop, an anchorage for one end of the band, a clamp for the distal end of the band, a slide carrying said clamp,means for adjusting said slide, a carriage having a dashpot with which carriage said slide is in sliding engagement, a weight for moving said carriage so as to apply tension to the band and means actuated by the operator for returnmg said carriage against the force of the weight.

11. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning, flexible band adapted to con-fine the ring in a loop, means for anchoring one end of the band at one side of the path of the distal portion of the band, a clamp for'the distal end of the band, .means for bodily moving said clamp and an indicator for showing the amount of the said movement. i

12. A machine for measuring the end clearance of piston rings comprising in comination a dimensionmg, flexible band adapted to confine the ring in a loop, means for anchoring one end of the band at one side of the path of the distal portion of the band, a clamp for the distal end of the band, a slidin carriage upon which said clamp is mounte and an indicator for showing the amount of said movement. 7

13. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning, flexible band adapted to confine the ring in a loop, an

anchor for anchoring one endof the band at one side of the path of the distal portion anchor provided with a slot, the anchored end of the band carrying a pin engaging said slot, a clamp for the distal end of the band, a carriage upon which said clamp is mounted, means for moving said carriage and an indicator for showing the amount of said movement.

14. A machine for measuring the end clearance of piston rings comprisin in combination a dimensioning, fiexib e band adapted to confine the ring in a loop, means for anchoring one end. of the band at one side of the path of the distal portion of the band, a

front stop for the ring, a clamp other end of the band, an

means for sliding said carriage clearance of forthe distal end of the band, a carriage on which said clamp is mounted, means for moving said carriage and an indicator for showing the amount of said movement.

.15. A machine for measuring the end clearanceof piston rings comprisin in combination a dimensioning, flexible band adapted to confine the ring in a 1000, an anchorage for anchoring one end of the band, a guide for directing the band to one side of the anchorage, a reciprocating clamp for the distal end of the band, means for reciprocating said clamp and an indicator for showingthe amount of said movement.

16. A machine for measuring the end clearance of-piston rings comprisin in combination a dimensioning band, acfiipted to confine the ring'in a loop, an anchorage for one end of the band, means for moving the other end of the band, an indicator for indicating the amount of movement, means for confining the ends of the ring against lateral displacement at the same time ermitting the ends to approach each ot or when the ring under test is in the loop, and means for yieldingly mounting said confining means, permittin the confining means to move'under the pa 1 of the band, thus allofwingl the band to take up its directline 0 pul 17. A machine for measuring the end clearance of piston rings comprisin incombination a dimensioning band, ad apted toconfine the ring in a loop, an anchorage for one end of the band, means for moving the indicator for in dicating the amount of movement, a platform and jaw for confining the ends of the ring against lateral displacement at the same time permitting the ends to approach each other, when the ring under test is in the loo and means for yieldingly mounting sai platform, permitting the platform to move under the pull of the band, thus allowing the bandto take up its direct line of u l. 1

1 8 A machine for measuring the end iston rings comprisin in combination a confine the ring in a loop, an anchorage for one end of the band, means for moving the other end of the band, an indicator for indicatin the amount of movement, a lat form and jawTor confining the ends 0 the ring against lateral displacement at the same time permitting the ends to approach each other, when the ringunder test is in the loop, said platform and jaw being rela-' tively movable toward and away from each other, and a plurality of springs supporting said platform, permitting the platform to move under the pull of the band, thus allowing'the band to take up its direct line of pull.

19. A machine for measuring the end clearance of piston rings cemprising in comimensioning band, a apted to i bination a dimensioning band, adapted to confine the ring in a loop, an anchorage for one end of the band, means for moving the other end of the band, an indicator for indicating the amount of movement, a platform and jaw for confining the ends of the ring against lateral displacement at the same time permitting the ends to approach each other, when the rin under test is in the loop, platform, an extension carried by said plat form, a spring surrounding said extension, thereby permitting the platform to move under the pull of the band, thus allowin the band to take u its direct line of pul? 20. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning band, adapted to confine the ring in a loop, an anchorage for one end of the band, means for moving the other end of the band, an indicator for ing of the jaw,

. indicatin the amount of movement, a latform an aw for confinin the ends 0 the ring against lateral disp acement, at the same time permitting the ends to approach each other, said 'aw being movable toward and away from t e latform when the ring under test is in the oop, three springs supportin said platform, an extension carried by sai platform, a spring surrounding said extension, thereby permitting the platform to move under the all of the band.

21.- A machine or measuring the end clearance of piston rings comprisin in combination a dimensioning band, apted to confine the ring in a. 00p, an anchorage for one end of the band, means for moving the other end of the band, an indicator for indicating the amount of movement, a plat form and jaw for confining the ends of the ring against lateral displacement at the same time permitting the ends to approach each other, when the ring under test is in the loop, means for yieldingly supporting said platform, a screw-threaded stud carried by said platform, a spring surrounding said stud, a. nut for compressing said spring, thereby permitting the platform to move under the pull of the band.

22. A machine for measuring the end clearance of piston rings comprisin in combination a dimensioning band, adapted to' confine the ring in a loop, an anchorage for one end of the band, means for moving the other end of the band, an indicator for indicating the amount of movement, a platform' and jaw for confining the ends of the ring against lateral displacement at, the same time permitting the ends to approach each other, a. guide pin for preventing twistand means for yieldingly mounting said platform, rmitting the latform to move under t e pull of the and, thus allowing the band to take up its direct line of pull.

means for yiel ingly supporting said 23. A machine for measuring the-fend clearance of piston rings comprising in combination a',-.dimensioning hand, adapted to confine the 'ring in a loop, an anchorage for one end ofthe band, means for moving the other end of the band, an indicator for indicating the amount of movement, aplatform and jaw for confining the ends of'the ring against lateral displacement at",v the same time permitting the ends to approach each other, a guide pin for preventing twisting of the jaw, a flange on the guide pin, a guide for said band, and means for yieldingly mounting said platform, permitting the platform to move under the pull of the band, thus allowing the band to take up its direct line of pull.

24. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning band, adapted to confine the ring in a loop, an anchorage for one end ofthe band, means for movinggthe other end of the band, an indicator for indicating the amount of movement, a platform and jaw for confining the ends of the ring against lateral displacement at the same time permitting the ends to approach each other, when the ring under test is in the loop, a gage block for separating the platform and the jaw, and means for yieldingly mounting said platform, permitting the platform to move under the pull of the band. t

25. A machine for measuring the -end clearance of piston rings comprising in combination a dimensioning band, adapted to confine the ring in a loop, an anchorage for one end of the ba-nd,'means for moving the other end of the band, an indicator for indicating the amount of movement, a latform and jaw for confining the ends ,vothe ring against lateral displacement at; the same time permitting the ends to approach each other, when the ring under testis" in the loop, a ga e block for separating the platform and t e jaw, a cam for clamping the jaw against the gage block, {and means for yieldingly mounting said platform, permitting the platform to move under the pull of the band.

26. A machine for measuring the end clearance of iston rings comprising in combination a imensioning band, adapted to confine the ring in a loop, an anchorage for one end of the band, means for moving the other end of the band, an indicator for .indicating the amount of movement, a latform and jawjfor confinin the'ends o the ring against lateral disp acement at, the same time permitting the ends toapproach each other, when the ring. under test is in said jaw and movable platform.

28. A machine for measuring the end clearance of iston rings comprising in combination a dimensioning band, adapted to confine the ring in a loop, an anchorage for one end of the band, means for moving the other end of the band, an indicator for indicating the amount of movement, a main platform for supporting the body of the ring, said platform provided with a recess, a movable platform mounted in said recess,

7 a jaw cooperating with said movable platform, and means for yieldingly supporting said platform and aw.

29. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning band, adapted to confine the ring in a loop, an anchorage for one end of the band, means for moving the other end of the band, an indicator for indicating the amount of movement, a main platform for supporting the body of the ring, said platform provided with a recess, a front stop for the ring located adjacent to said recess, a movable platform mounted in said recess, a jaw cooperating with said movable platform, and means for yieldingly supporting said platform and jaw.

30. A machine for measurin the end clearance of piston rings comprising in combination a dimensioning, flexible band ada ted to confine the ring in a loop, an

anc iorage for one end of the band, a clamp for the distal end of the band, a slide carrying said clamp, means for adjusting said slide, a carriage having a dashpot with which carriage said slide is in sliding engagement", a movable carriage stop, a weight for moving said carriage so as to apply tension to the band and a pedal for returning said carriage against the force of the weight.

31. A machine for measuring the end clearance of piston rings comprising in combination adimensioning, flexible band adapted to confine the ring in a loop, means for anchoring one end of the band at one side of the path of the distal portion of the band, a clamp for the distal end of the-band, means for bodily moving said clamp, a bracket, means connected with said clamp for actuating the indicator, and an indicator pivoted to said bracket, for showing the amount of movementof said clamp. 6

32. A machine for measuring the end clearance of piston rings omprising in combination a dimensioning, flexible band adapted to confine the ring in a loop, means for anchoring one end of the band atone side of the path of the distal portionof the band, a clamp for the distal end of the band, a carriage upon which said. clamp is mounted, means for moving said carriage, a bracket and an indicator pivoted to said bracket and actuated by said carriage, for showing the amount of movement of said carriage.

33. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning, flexible band adapted to confine the ring ina loop, a platform for supporting the body of the ring, an anchorage for one end of the band, a clamp for the distal end of the band, a slide carrying said clamp, means for micrometrically adjusting said slide, a carriage on which said slide is mounted, and means for vibrating said platform.

34. A machine for measuring the end clearance of piston rings comprising in combination a dimensioning, flexible band adapted to confine the ring in a loop, a platform for supporting the body of the ring, a motor arranged beneath said platform, a de vice actuated by said motor for vibrating said platform, ananchorage for one end of the band, a clamp for the distal end of the band, a carriage on which said claim is mounted, means for moving said carriage and means for indicating its movement.

In testimony whereof, I have signed my name to this specification. v I ROBERT E. WASSON.

' "Witness:

LOUELLA F. LITTLE. 

